Patología comparada de neoplasias en carnívoros salvajes

Han sido observados diferentes tipos de neoplasias en distintas especies de animales, las cuales pueden agruparse según el tejido de origen y su grado de malignidad. Pueden ser de origen epitelial, mesenquimal, de células redondas o de células productoras de pigmentos. De acuerdo con el grado de mal...

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Autores:: Cruz-Ochoa, Pablo F.
Ochoa-Amaya, Julieta E.
Cruz-Casallas, Pablo E.

Tipo de recurso:: Article of journal

Fecha de publicación:: 2017

Institución:: Universidad de los Llanos

Repositorio:: Repositorio Digital Universidad de los LLanos

Idioma:: spa

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dc.title.spa.fl_str_mv	Patología comparada de neoplasias en carnívoros salvajes
dc.title.translated.eng.fl_str_mv	Comparative pathology of neoplasms in wild carnivores
title	Patología comparada de neoplasias en carnívoros salvajes
spellingShingle	Patología comparada de neoplasias en carnívoros salvajes GIS fish farming potential land planning SIG piscicultura potencialidad ordenamiento territorial planificación
title_short	Patología comparada de neoplasias en carnívoros salvajes
title_full	Patología comparada de neoplasias en carnívoros salvajes
title_fullStr	Patología comparada de neoplasias en carnívoros salvajes
title_full_unstemmed	Patología comparada de neoplasias en carnívoros salvajes
title_sort	Patología comparada de neoplasias en carnívoros salvajes
dc.creator.fl_str_mv	Cruz-Ochoa, Pablo F. Ochoa-Amaya, Julieta E. Cruz-Casallas, Pablo E.
dc.contributor.author.spa.fl_str_mv	Cruz-Ochoa, Pablo F. Ochoa-Amaya, Julieta E. Cruz-Casallas, Pablo E.
dc.subject.eng.fl_str_mv	GIS fish farming potential land planning
topic	GIS fish farming potential land planning SIG piscicultura potencialidad ordenamiento territorial planificación
dc.subject.spa.fl_str_mv	SIG piscicultura potencialidad ordenamiento territorial planificación
description	Han sido observados diferentes tipos de neoplasias en distintas especies de animales, las cuales pueden agruparse según el tejido de origen y su grado de malignidad. Pueden ser de origen epitelial, mesenquimal, de células redondas o de células productoras de pigmentos. De acuerdo con el grado de malignidad, se clasifican como benignas y malignas. Los carnívoros constituyen un orden perteneciente al reino animal, dentro del cual se encuentran varias familias. Según la interacción que tengan con el medio ambiente y la exposición a agentes contaminantes, virus y situaciones estresantes, algunos individuos de ciertas familias pueden desarrollar un tipo de neoplasia. Tanto en félidos como cánidos, se han encontrado mayor incidencia de neoplasias de tipo epitelial involucrando el sistema tegumentario; en pinnípedos el sistema mayormente afectado es el tracto reproductivo. Existen pocos reportes de neoplasias en prociónidos y mustélidos, lo que puede sugerir una mayor resistencia genética a la presentación de neoplasias por parte de estas familias, o a una exposición menor a cancerígenos.El propósito de esta revisión es conocer las neoplasias más frecuentes en especies salvajes, ya que estas sirven como centinelas del ecosistema y ayudan a determinar posibles contaminantes carcinogénicos en el ambiente. Conociendo el grado de similitud en la génesis y progresión tumoral en humanos, con relación a la vida salvaje genera oportunidades de tratamiento y conservación y pueden servir como centinelas efectivos para problemas de salud pública. Además, su importancia en favorecer y fortalecer mecanismos encaminados para la salud y conservación de especies silvestres, ya que pueden ser mermadas considerablemente a causa de este tipo de enfermedades.
publishDate	2017
dc.date.accessioned.none.fl_str_mv	2017-07-16 00:00:00 2022-06-13T17:42:02Z
dc.date.available.none.fl_str_mv	2017-07-16 00:00:00 2022-06-13T17:42:02Z
dc.date.issued.none.fl_str_mv	2017-07-16
dc.type.spa.fl_str_mv	Artículo de revista
dc.type.eng.fl_str_mv	Journal Article
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identifier_str_mv	0121-3709 10.22579/20112629.393 2011-2629
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dc.relation.references.spa.fl_str_mv	Acevedo-Whitehouse KA, Constantino-Casas F, Aurioles-Gamboa D, Rodríguez-Martínez HA, Godínez-Reyes CR. Hepatic Carcinoma with Spleen Metastasis in a California Sea Lion from the Gulf of California. Journal of Wildlife Diseases, 1999; 35(3): 565-568. Armstrong DL, Doster AR. Seminoma and parathyroid adenoma leopard (Panthera unica) in a Snow. Journal of Comparative Pathology, 1989;100(4):475-80. Bäcklin BM, Eriksson L, Olovsson M. 2003. Histology of uterine leiomyoma and occurrence in relation to reproductive activity in the Baltic gray seal (Halichoerus grypus). Veterinary Pathology Online, 40(2), 175-180. Baqir S, Al Azri H, Al Rasbi K, Mastromonaco G, Gartley C. Skin lipoma in an Arabian leopard (Panthera paradus nimr). Acta Scientiae Veterinariae, 2014; 42(1): 54. Biancani B, Lacave G, Magi GE, Rossi G. Ovarian interstitial cell tumor in a South American sea lion (Otaria flavescens). Journal of Wildlife Diseases, 2010; 46(3): 1012–1016. Blois SL, Dickie DL, Kruth SA. Multiple endocrine diseases in cats: 15 cases (1997-2008). Journal of Feline Medicine and Surgery, 2010;12(8): 637–42. Bock, P, Seehusen, F, Müller, H, Aupperle, H, Hewicker-Trautwein, M, Wohlsein, P. Subcutaneous leiomyosarcoma in a captive European wolf (Canis lupus). Veterinary Record, 2007; 161(12):429-430. Bossart, GD. Marine mammals as sentinel species for oceans and human health. Veterinary Pathology, 2011; 48(3): 676–690. Browning, HM, Gulland FM, Hammond JA, Colegrove KM, Hall AJ. Common cancer in a wild animal: the California sea lion (Zalophus californianus) as an emerging model for carcinogenesis. Philosophical transactions of the Royal Society of London. Series B, Biological sciences, 2015; 370(1673): 1-7. Byers, PD. A study of histological features distinguishing chordoma from chondrosarcoma. British Journal of Cancer, 198; 43(2):229. Cagnini DQ, Grandi F, Linardi JL, Piero FD, Rocha RM, Rocha NS, Salgado BS, Sequeira JL, Teixeira CR. Ocular melanoma and mammary mucinous carcinoma in an african lion. BMC Veterinary Research, 2012; 8(1):176. Carpenter JW, Novilla MN, Kaiser HE. 1981. Neoplasia and other disease problems in black-footed ferrets: implications for an endangered species. En: Neoplasms—Comparative Pathology of Growth in Animals, Plants, and Man, Baltimore, USA, p. 739-746. Chambers JK, Nakamori T, Kishimoto TE, Nakata M, Miwa Y, Nakayama H, Uchida K. Lachrymal Gland Basal Cell Adenocarcinoma in a Ferret (Mustela putorius furo). Journal of Comparative Pathology, 2016;155(2):259-262. Chesterman FC, Pomerance A. Spontaneous neoplasms in ferrets and polecats. Journal of Pathology Bacteriology, 1965;89(2):529–533. De Castro MB, Werther K, Godoy GS, Borges VP, Alessi AC. Visceral mast cell tumor in a captive black jaguar (Panthera onca). Journal of Zoo and Wildlife Medicine, 2003; 34(1):100-102. Dillberger, JE, Citino JE. A malignant nephroblastoma (Fennecus zerda). Journal of Comparative Pathology, 1987; 97 (1):101-6. Dillberger JE, Altman NH. Neoplasia in ferrets: eleven cases with a review. Journal of Comparative Pathology, 1989; 100(2): 161–76. Dong-hyuk J, Jeong-jin Y, Joo-yeon K, Bae-keun L, Je-wook L , Se-jin P, Seung-yong L,Seong-hoon S, Il-hwa H, Hee-chun L, Seong-chan Y. A subcutaneous lipoma in a male red fox. Journal of Veterinary Clinics, 2015; 32(3): 278–281. Elvestad K, Henriques UV, Kroustrup J. Insulin-producing islet cell tumor in an ectopic pancreas of a red fox (Vulpes vulpes). Journal of Wildlife Diseases, 1984; 20(1):70–72. Erdman SE, Moore FM, Rose R, Fox JG. Malignant lymphoma in ferrets: clinical and pathological findings in 19 cases. Journal of Comparative Pathology, 1992; 106(1):37–47. Flower, JE, Gamble KC, Stone M, Lyons JA, Maganti RJ, Tuomi PA, Olds JE, Sims MA,Gauger P, Tuttle AD. Esophageal squamous cell carcinoma in six harbor seals (Phoca vitulina spp.). Journal of Zoo and Wildlife Medicine, 2014; 45(3): 620–631. Fortin JS, Benoit-Biancamano MO. Characterization of a pancreatic islet cell tumor in a polar bear (Ursus maritimus), Zoo Biology, 2014; 33(5): 446–451. Fukui, D. Bando G, Ishikawa Y, Kadota K. Adenosquamous carcinoma with cilium formation, mucin production and keratinization in the nasal cavity of a red fox (Vulpes vulpes schrencki). Journal of Comparative Pathology, 2007;137( 2-3):142–145. Gorbunova V, Seluanov A, Zhang Z, Gladyshev V N, Vijg J. Comparative genetics of longevity and cancer: insights from long-lived rodents. Nature Reviews. Genetics, 2014; 15(8): 531–540. Hadlow WJ. Vertebral chordoma in two ranch mink. Veterinary Pathology, 1984; 21(5): 533–536. Hamir AN, Picton R, Blythe LL, Heidel JR. Diagnostic exercise: astrocytoma with involvement of medulla oblongata, spinal cord, and spinal nerves in a raccoon (Procyon lotor). Veterinary Pathology, 2008; 45(6): 949–951. Hirayama K, Kagawa Y, Nihtani K, Taniyama H. Thyroid C-cell carcinoma with amyloid in a red fox (Vulpes vulpes schrenchki). Veterinary Pathology, 1999; 36(4): 342–344. Janovsky, M; Steineck, T. Adenocarcinoma of the mammary gland in a red fox from Austria. Journal of Wildlife Diseases, 1999;. 35(2):392–394. Lair S, Ian K, Barker IK, Kay G, Mehren KG, Williams ES. Epidemiology of neoplasia in captive black-footed ferrets (Mustela nigripes), 1986-1996. Journal of Zoo and Wildlife Medicine, 2002; 33(3):204–213. Lipscomb TP, Scott DP, Schulman,FY. Primary site of sea lion carcinomas. Veterinary Pathology Online, 2010, 47(1): 185-185. MACY, D. W. Canine mast cell tumors. Veterinary Clinical of North American – Small Animal Practice, 1985; 15(4): 783-803. Majie AK, Mondal P, Ghosh S, Banerjee D. Cutaneous Adenocarcinoma of sebaceous gland in a captive male jaguar (Panthera onca): A case report. Journal of the South African Veterinary Association, 2014; 85(1): 8–10. Marker L,. Munson L, Basson PA, Quackenbush S. Multicentric T-cell lymphoma associated with feline leukemia virus infection in a captive namibian cheetah (Acinonyx jubatus). Journal of Wildlife Diseases, 2003; 39(3):690–695. Martínez-Fernández B, García-Iglesias MJ, Borragán-Santos S, Espinosa-Alvarez J, Pérez-Martínez C. Undifferentiated High-Grade Pleomorphic Sarcoma in a California Sea Lion (Zalophus californianus). Journal of Comparative Pathology, 2011; 144(2-3):200–203. Mawdesley-Thomas L, Bonner W. Uterine tumours in a grey seal (Halichoerus grypus). Journal of Pathology, 1971; 103(3), p. 205–208. Mcaloose D, Newton A. Wildlife cancer: a conservation perspective. Nature reviews, 2009; 9(7):517–525. Mete A, Woods L, Famini D, Anderson M. Disseminated pleomorphic myofibrosarcoma in a grizzly bear (Ursus arctos horribilis). Journal of Comparative Pathology, 2012; 147(2-3):376–380. Meuten D. 2002. Tumors in Domestic Animals. 4th ed. Iowa, USA. p. 30. Munson L, Moresco A. Comparative pathology of mammary gland cancers in domestic and wild animals. Breast disease, 2007; 28(1):7–21. Murakam T, Kobayashi Y, Chiba S, Kurauchi Y, Sakamoto H, Sasaki M, Matsui T. Humeral chondrosarcoma in a Hokkaido brown bear (Ursus arctos yesoensis). Journal of Veterinary Medical Science, 2012; 74(9):1195–1197. Mwase M, Mumba C, Square D, Kawarai S, Madarame H. Cutaneous squamous cell carcinoma presenting as a wound with discharging sinus tracts in a wild African lion (Panthera leo). Journal of Comparative Pathology, 2013; 149(4):520-523. Nakamura K. Tanimura H, Katsuragi K, Shibahara T, Kadota K. Differentiated Basal Cell Carcinoma in a Cape Clawless Otter (Aonyx capensis). Journal of Comparative Pathology, 2002; 127(2-3):223–227. Newman SJ, Smith SA. Marine mammal neoplasia: a review. Veterinary Pathology, 2006; 43(6):865–880. Owston MA, Ramsay EC, Rotstein DS. Neoplasia in felids at the Knoxville Zoological Gardens, 1979-2003. Journal of Zoo and Wildlife Medicine, 2008; 39(4): 608–613. Pearson RC, Gorham JR. 1987. Mink virus enteritis. En: Virus infections of carnivores. Amsterdam, Netherlands. p. 349–360. Ramos Vara JA, Miller MA, Preziosi D. Glucagonoma in a jaguar (Panthera onca). Journal of Zoo and Wildlife Medicine, 2000; 31(4): 563–565. Ratcliffe HL. Incidence and Nature of Tumors in Captive Wild Mammals and Birds. The American Journal of Cancer, 1933; 17(1): 116–135. Reppas GP,. Bodley KB,. Watson GF, Wills EJ. Phaeochromocytoma in two coatimundi (Nasua nasua). Veterinary Record, 2001;148(26): 806–809. Rodriguez-Ramos Fernandez J, Thomas NJ. Dubielzig RR, Drees R. Osteosarcoma of the maxilla with concurrent osteoma in a southern sea otter (Enhydra lutris nereis). Journal of Comparative Pathology, 2012; 147(2-3):391–6. Sadler RA., Craig LE., Ramsay EC., Helmick K., Collins D, Garner MM. Clinicopathologic features of mammary masses in captive lions (Panthera leo). Journal of Zoo and Wildlife Medicine, 2016; 47(1):127–131. Skorinsky I. Papadogiannakis E, Horowitz I, Anug AM. Epitheliotropic cutaneous lymphoma (mycosis fungoides) in a coati. The Journal of Small Animal Practice, 2008; 49(4):204–7. Souza Fde A, de Carvalho CJ, de Almeida HM, Pires LV, Silva Ldos S, Costa FA, Silva SM. Peritoneal mesothelioma in a jaguar (Panthera onca). Journal of Zoo and Wildlife Medicine, 2013; 44(3):737–739. Stannard AA, Pulley T. 1978. Tumors of the skin and soft tissues. En: Tumors in Domestic Animals. 2nd ed. Moulton, Berkeley. p. 16-74. Stedman NL, Mills ZV. Splenic Marginal Zone Lymphoma in an Asian Small-Clawed Otter (Aonyx cinerea). Journal of Zoo and Wildlife Medicine, 2014; 45(3):719–722. Stroud RK, Roffe TJ. Causes of death in marine mammals stranded along the Oregon coast. Journal of Wildlife Disease, 1979; 15(1):91–97. Swenson ES, Xanthopoulos J, Nottoli T, McGrath J, Theise ND, Krause DS. Chimeric mice reveal clonal development of pancreatic acini, but not islets. Biochemical and biophysical research communications, 2009; 379(2):526-531. Thongtharb A. Uchida K, Chambers JK, Miwa Y, Murata Y, Nakayama H. Histological and immunohistochemical features of histiocytic sarcoma in four domestic ferrets (Mustela putorius furo). Journal of Veterinary Diagnostic Investigation, 2016; 28(2):165–170. Tordiffe AS, Cassel N, Lane EP, Reyers F. Multiple myeloma in a captive lion (Panthera leo). Journal of the South African Veterinary Association, 2013; 84(1):1-5. Vail DM, Withrow SJ. 2009. Tumores de la Piel y Tejidos Subcutáneos. En: Oncologia Clínica de Pequeños Animales. 4th ed. Barcelona-España p. 371–8. Vashist VS, Rattan SK, Gupta BB. Papillary cystadenocarcinoma of the mammary gland with metastases to the gastrointestinal tract in a Himalayan brown bear (Ursus arctos). Journal of Zoo and Wildlife Medicine, 2013; 44(2):453–6. Yoshikawa K, Matsuura S, Tsuchiya T, Kadota K. Pancreatic endocrine carcinoma with multiple hormone production in a raccoon (Procyon lotor). Journal of Comparative Pathology, 1999; 120(3):301–306.
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spelling	Cruz-Ochoa, Pablo F.f6ed70229d556dc5f03eea597b9211e2Ochoa-Amaya, Julieta E.fc748a190f8232814095350f24ebe051500Cruz-Casallas, Pablo E.267d1b60b4749f920791d4a4aae840c25002017-07-16 00:00:002022-06-13T17:42:02Z2017-07-16 00:00:002022-06-13T17:42:02Z2017-07-160121-3709https://repositorio.unillanos.edu.co/handle/001/263410.22579/20112629.3932011-2629https://doi.org/10.22579/20112629.393Han sido observados diferentes tipos de neoplasias en distintas especies de animales, las cuales pueden agruparse según el tejido de origen y su grado de malignidad. Pueden ser de origen epitelial, mesenquimal, de células redondas o de células productoras de pigmentos. De acuerdo con el grado de malignidad, se clasifican como benignas y malignas. Los carnívoros constituyen un orden perteneciente al reino animal, dentro del cual se encuentran varias familias. Según la interacción que tengan con el medio ambiente y la exposición a agentes contaminantes, virus y situaciones estresantes, algunos individuos de ciertas familias pueden desarrollar un tipo de neoplasia. Tanto en félidos como cánidos, se han encontrado mayor incidencia de neoplasias de tipo epitelial involucrando el sistema tegumentario; en pinnípedos el sistema mayormente afectado es el tracto reproductivo. Existen pocos reportes de neoplasias en prociónidos y mustélidos, lo que puede sugerir una mayor resistencia genética a la presentación de neoplasias por parte de estas familias, o a una exposición menor a cancerígenos.El propósito de esta revisión es conocer las neoplasias más frecuentes en especies salvajes, ya que estas sirven como centinelas del ecosistema y ayudan a determinar posibles contaminantes carcinogénicos en el ambiente. Conociendo el grado de similitud en la génesis y progresión tumoral en humanos, con relación a la vida salvaje genera oportunidades de tratamiento y conservación y pueden servir como centinelas efectivos para problemas de salud pública. Además, su importancia en favorecer y fortalecer mecanismos encaminados para la salud y conservación de especies silvestres, ya que pueden ser mermadas considerablemente a causa de este tipo de enfermedades.Different types of neoplasia have been observed in different species of animals. Neoplams are divided by the tissue of origin and its degree of malignancy. They may be of epithelial, mesenchymal origin, of round cells and of pigment-producing cells. According to the degree of malignancy, they are classified as benign and malignant. Carnivores constitute an order belonging to the animal kingdom, within which are several families. Depending on the interaction they have with the environment and exposure to pollutants, viruses and stressful situations, some individuals from a different family may develop a neoplasia. In both felids and canids, we have found a higher incidence of epithelial neoplams involving the integumentary system. In pinnipeds, the system most affected is the reproductive tract. There are few reports of neoplasms in procyonidae and mustelids, which may suggest a greater genetic resistance to the presentation of neoplams, or to a lesser carcinogenic exposure. The main purpose of this article is to identify the neoplasias in wild species, since these serve as sentinels of the ecosystem and help to determine possible carcinogenic pollutants in the environment. Knowing the degree of similarity in the genesis and tumor progression in humans, in relation to the wild life generates opportunities of treatment and conservation. They can serve as effective sentinels for public health problems. In addition, it is important in favoring and strengthening mechanisms directed to the health and conservation of wild species, since they can be reduced considerably because of this type of diseases.application/pdfspaUniversidad de los LlanosOrinoquia - 2017https://creativecommons.org/licenses/by/4.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2https://orinoquia.unillanos.edu.co/index.php/orinoquia/article/view/393GISfish farmingpotentiallandplanningSIGpisciculturapotencialidadordenamiento territorialplanificaciónPatología comparada de neoplasias en carnívoros salvajesComparative pathology of neoplasms in wild carnivoresArtículo de revistaJournal Articleinfo:eu-repo/semantics/articleSección ArtículosSección Articlesinfo:eu-repo/semantics/publishedVersionhttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1Texthttp://purl.org/coar/version/c_970fb48d4fbd8a85Acevedo-Whitehouse KA, Constantino-Casas F, Aurioles-Gamboa D, Rodríguez-Martínez HA, Godínez-Reyes CR. Hepatic Carcinoma with Spleen Metastasis in a California Sea Lion from the Gulf of California. Journal of Wildlife Diseases, 1999; 35(3): 565-568.Armstrong DL, Doster AR. Seminoma and parathyroid adenoma leopard (Panthera unica) in a Snow. Journal of Comparative Pathology, 1989;100(4):475-80.Bäcklin BM, Eriksson L, Olovsson M. 2003. Histology of uterine leiomyoma and occurrence in relation to reproductive activity in the Baltic gray seal (Halichoerus grypus). Veterinary Pathology Online, 40(2), 175-180.Baqir S, Al Azri H, Al Rasbi K, Mastromonaco G, Gartley C. Skin lipoma in an Arabian leopard (Panthera paradus nimr). Acta Scientiae Veterinariae, 2014; 42(1): 54.Biancani B, Lacave G, Magi GE, Rossi G. Ovarian interstitial cell tumor in a South American sea lion (Otaria flavescens). Journal of Wildlife Diseases, 2010; 46(3): 1012–1016.Blois SL, Dickie DL, Kruth SA. Multiple endocrine diseases in cats: 15 cases (1997-2008). Journal of Feline Medicine and Surgery, 2010;12(8): 637–42.Bock, P, Seehusen, F, Müller, H, Aupperle, H, Hewicker-Trautwein, M, Wohlsein, P. Subcutaneous leiomyosarcoma in a captive European wolf (Canis lupus). Veterinary Record, 2007; 161(12):429-430.Bossart, GD. Marine mammals as sentinel species for oceans and human health. Veterinary Pathology, 2011; 48(3): 676–690.Browning, HM, Gulland FM, Hammond JA, Colegrove KM, Hall AJ. Common cancer in a wild animal: the California sea lion (Zalophus californianus) as an emerging model for carcinogenesis. Philosophical transactions of the Royal Society of London. Series B, Biological sciences, 2015; 370(1673): 1-7.Byers, PD. A study of histological features distinguishing chordoma from chondrosarcoma. British Journal of Cancer, 198; 43(2):229.Cagnini DQ, Grandi F, Linardi JL, Piero FD, Rocha RM, Rocha NS, Salgado BS, Sequeira JL, Teixeira CR. Ocular melanoma and mammary mucinous carcinoma in an african lion. BMC Veterinary Research, 2012; 8(1):176.Carpenter JW, Novilla MN, Kaiser HE. 1981. Neoplasia and other disease problems in black-footed ferrets: implications for an endangered species. En: Neoplasms—Comparative Pathology of Growth in Animals, Plants, and Man, Baltimore, USA, p. 739-746.Chambers JK, Nakamori T, Kishimoto TE, Nakata M, Miwa Y, Nakayama H, Uchida K. Lachrymal Gland Basal Cell Adenocarcinoma in a Ferret (Mustela putorius furo). Journal of Comparative Pathology, 2016;155(2):259-262.Chesterman FC, Pomerance A. Spontaneous neoplasms in ferrets and polecats. Journal of Pathology Bacteriology, 1965;89(2):529–533.De Castro MB, Werther K, Godoy GS, Borges VP, Alessi AC. Visceral mast cell tumor in a captive black jaguar (Panthera onca). Journal of Zoo and Wildlife Medicine, 2003; 34(1):100-102.Dillberger, JE, Citino JE. A malignant nephroblastoma (Fennecus zerda). Journal of Comparative Pathology, 1987; 97 (1):101-6.Dillberger JE, Altman NH. 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Pancreatic endocrine carcinoma with multiple hormone production in a raccoon (Procyon lotor). Journal of Comparative Pathology, 1999; 120(3):301–306.https://orinoquia.unillanos.edu.co/index.php/orinoquia/article/download/393/999Núm. 1 , Año 20175114121OrinoquiaPublicationOREORE.xmltext/xml2502https://dspace7-unillanos.metacatalogo.org/bitstreams/3493389f-175e-4879-a61d-8431c3a3811a/downloadbfbec6458b1aa35cc64fd928f2443ceaMD51001/2634oai:dspace7-unillanos.metacatalogo.org:001/26342024-04-17 16:37:56.246https://creativecommons.org/licenses/by/4.0/Orinoquia - 2017metadata.onlyhttps://dspace7-unillanos.metacatalogo.orgRepositorio Universidad de Los Llanosrepositorio@unillanos.edu.co

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